Deformation is very helpful in spreading resistance analysis. During spreading resistance profiling of silicon and germanium, probe tips subject small areas of the semiconductor to extreme pressure (~100 atmospheres). The pressure deforms the local silicon causing some formation of a metallic like, so-called “beta-tin" phase. This allows spreading resistance to make ohmic contact (of nearly ohmic contact) to extremely high n- and p-type resistivity (at least 40,000 ohm-cm) while applying as little as five millivolts. Roger Brennan, Solecon Labs -----Original Message----- From: mems-talk-bounces@memsnet.org [mailto:mems-talk-bounces@memsnet.org]On Behalf Of Andrea Mazzolari Sent: Saturday, February 02, 2008 6:48 AM To: General MEMS discussion Subject: [mems-talk] silicon plastic deformations applications Hi all, i'm interested to silicon plastic deformations and applications of this technology. See for example the paper: "Hemisphere-shaped Si crystal wafers obtained by plastic deformation and preparation of their solar cells.[J. Electron. Mater.,34,(2005),1047-1052] K. Nakajima, K. Fujiwara, W. Pan". Which could be pratical applications of silicon plastic deformations? I presume that it could be possible to realize x-ray focusing and lenses devices. Are there other possible applications ? Many thanks, Andrea